Transmission-gearing.



A. J. MORSE.

' TRANSMISSION GEARING. APPLICATION I ILBD JUNE 6, 1907. C

Patented Apr. 12, 1910.

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E WITNESSES INVENT'OR A. J, MORSE.

TRANSMISSION GBARING. APPLIOATION FILED JUNE 6, 1907.

Patented Apr. 12, 1910.

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ARTHUR, iAcoE Morass, OF'TOBRINGTOIN,CONNECTICUT, ASSIGNOR 'ro coNnEcrIcU'r iroroa VEHICLE COMPANY, or NEW YORK, N. Y., A CORPORATION or NEW Yoax.

- TRANSMISSION-GEARING.

Patented Apr. 12, 1910.

'Application filed-June c, 1901. Serial No. 377,596.

To all whom it'may concern:

Be it known that I, ARTHUR JACOB Mouse, a 'citizen of the -United States, residing at Torrington, county of Litchfield, State of Connecticut, have invented certain new and useful Improvements in 'lransmission-(Jrearing, of which the following is.-a specification.

My invention relates to transmission gearing and is especially applicable to motor vehicles. designed to carry heavy loads, although itis applicable to any type of motor vehicles. p

My invention consists: First: in the mechanism by reasonof which thespeed changing mechanism is thrown into connection with the drive shaft, whereby any speed forward or baclnvard for the vehicle may be obtained. Second: in the-- arrangement of the speed changing mechanism in the fly \vheel. Third: in the arrangement of a slid;

ing pinand co-acting gears, with specially shaped slots.

The general purpose of my invention is to provide means for utilizing the power mechanism of the engine to obtain any speed forward or backward without operating a clutch prior to change of gears, and without shifting the gears relative to each other and the drive shaft.

The above statement of invention is sufficient to convey the general principles .in-

volved. I wish it understood, however, that in euumcratil'ig the features of' invention and the objects to be obtained, 1 have treated the matter from a broad standpoint and without enumerating .very many features and objects, which will be apparent from an 'e. amin'ation of the detailed specification.-

In the accompanying drawings: Figure 1,

is a longitudinal view partly in section,

showing: my improved transmission gearing 5 connected to an engine shaft. Fig. is a cross-section on the line lIlI of Fig. 1;

Fig. 3 is a longitudinal section of my gearing mounted within a tly-wheel;-Fig. 4: is a longitudinal section of a clutch coupling to the drive-shaft;.and Fig. 5 is a cross-sec For the purpose of illustratin my transmission gearing and its mode 0% operation, I have shown diagrammatically a gasolene engine A, supported from a platform '1, which may be the frame of a. motorcar, and secured to the under side of said frame, a

.tion, of the clutch coupling shown in Fig. 4?

shaft 5, causing such shaft to rotate at variable speeds and in difl'erent directions. Drive shaft 5 can also be clutched directly to the fly wheel 4, causing th'e'drive shaft to rotate at the same speed and in the same di rection as the en ine shaft 3. Drive shaft 5 may be provided frame 1 at; 7, and in the fly wheel L at 8, Fig. 4. Dove-tail grooves-f), Fig. 5, are formed on opposite sides of'the drive-shaft'5, and in these grooves are placed slides '10 which are provided at one endwith keys 11, Figs. 4- and 5, adapted for engagement with s'lots 19.,formed in the tly wheel 4 causing tlrive shaft 5 to rotate with the fly wheel. A rin with bearings in thecar or flange 14 is carried by shaft- 5, provided 5 drive shaft from engine shaft Mounted in the fly wheel 4 on opposite sides of its'axis of rot'zition are shaftslo ear-' ried in roller bearings 1.6. To each of the shafts 15 is secured a small gear wheel 17,

in mesh with a much larger gear wheel 18.

Gear wheels 19, of

loose on drive shaft 5. larger diameter than gear wheels 17, are secured to shafts l5, and they are in mesh with a gear wheel 20 of larger diameter loose on drive shaft 5. Gear wheels 21 0f larger. diameter than gearwheels 19 are also secured to shaft 15,'and they are in mesh with a gear wheel 22 of much smaller diameter loose on drive shaft 5; Finally, on shafts 15 are secured gear wheels 23, which are in mesh with a gear wheel 24 loose on drive shaft 5.

' Gear wheel2t is provided witha hub extension 25, the outer surface of which forms a bearin 26 for the fly wheel 4. To the outeren of the hub extensionfl5 ,is secured afriction disk 27, adapted forflehgagement through'its left hand face withga stationary, I

casting '28 forfn ng part of beiring 7. The. .0

- ment of the'collar 32 against the resistance causedby clutching directly to the fly wheel in the direction indicated by the arrow, Fig. I 5, gear wheels 23 will rotate in the same d1-" nbetween the gear wheels 18' and 20, there r Keysll an go's 0 posite. face of the friction disk 27 adapted for engagement with another friction disk 29, 'ca able of movement to or from friction disk 27, but held from rotating by means of studs 30 (formed on d1sk 29), which project through holes 31 in the Stationary casing 28. 'An oscillating collar 32, F ig. 3, is provided with aseries of cam surfaces 33, which 'take against the studs 30, and cause movement of friction disk 29 to or from friction. disk. 27 causing the friction disk 27 to be held, in or out of en- Oollar 32 is provided with a lever 34, by means of which an oscillating movement is imparted to the collar. Ball bearings 35,; Fig. 3, are providedjto facilitate the moveoffered by the frictibn disk .27.

The highest speed of drive shaft 5 is 4. In order to make adjustment for a lower speed, friction is applied to friction disk 27, by movement of os'cillating"collar 32, causing the disk 27, hub extension 25, and gear wheel 24 to remain stationary Then as the engine shaft 3 and fly wheel a rotate rection because v of their engagement with stationary gear wheel-24:. Rotation of gear wheels 23 will cause rotation of shaftsl5 with all the gear wheels which are secured to it, together with "the gear, wheels in mesh therewith and loose on drive,shaft=5. Then if the keys 11 be moved into slots 36, formedin gear wheel 18, drive shaft 5 willmoveas gear wheel 18 moves. The speed of gear wheel 18 is proportioned to the difference in thesizes of the gear wheels .l718 and the gear wheels 23, 24. Asthe fly wheel 4 rotates, shaft 15 together with the gear wheels 17 and 23 are carried bodily ina' circular path around the drive shaft 5. As the gear 23 is carried around the gear '24, it is caused to rotate on its axis. The gearfl'l' being fixed to the same shaft 15, will also becaused' to rotate around gear wheel 18, and will cause the said gear 18 to rotate with a speed less than that of the engine shaft3 and fly-wheel 1-, by an amount proportioned to' the ratio of thegcars 17 and 18. If the keysll be moved into the circular channels 37 formedwill be no movement of the drive shaft 5, although the gearvwheels may be rotating. Movement of the keys 11 into the slots 36 formed in gear wheel 20, causes driveshaft 5 to move as gear wheel 20 moves; The gear l9;being of larger diameter than gear 17;wiH'therefo1-e cause gear 20 to rotate .more slowly than gear 18, during its orbital travel.

f be. moved intothe circular channels 37 formed between the gear F riction vide arted to the drive shaft 5. Movement of ifeys l1 into slots 38 formed in gear wheel 22,:caus'es drive shaft 5 to move as gear wheel 22 moves. The gear wheel 21 has a greater diameter than gear 23, and will cause the gear 22 to rotate -in the reverse di- -rection to the rotation of gear 21, during the orbital travel of gear- 21. If keys 11 of 'slides 10 are in clutch with gear wheel 18, and the* friction disk 29 thrown off, the resistance offered by drive shaft 5 to the rotation of gear wheel 18 will cause gear wheels thrown off, all the gearwheels will be carried bodily around along with" the drive shaft 5 during the rotation of the fly wheels .Or, if the friction disk 29 be thrown on, the gear wheels 18, 20, and 22 will be idly rotated by means of the gear wheels on shafts 15 durin 'the rotation of the. fly wheel. disk 29 therefore will not interfere with the direct clutching of drive shaft 5 to the engine shaft 3.

I In order that keys 11 may readily enter the slots formed in the flywheel 4 and the gear wheels 18, 20, and 22, said parts are cut away on the'sides of the slots which does- -not take against the keys 11 to turn the drive shaft 5. If, as shown in Figs. 4 and 5,.the gear wheel 18 he rotating in the direction indicated by the arrow, face 39 of the slot 36 is-made the full length of the slotin order that it may bear firmly against keys .11, but the opposite face 10 can be cut away atan inclination as shown at 41, so that the keys 11 on being moved againstthe "incline 41 canride along the incline and fi'nallycome to rest in the slot 36 andagainst the. face 3-9. Evidently the incline Hand the faces 39 and 40 can be formed to profor movement of keys 11 in either direction, and the incline 41 and faces 3!).hnd 4O canalso be formed in a reverse direction to provide for propenengagement of the slots 38 of reversing geanwheel 22 with keys 11 of slides 10.; The slides 10 are socured to a sliding collar 42, Fig. 3, having a circulargroove ,43 engaging with pins 44 on a lever 45 which may be connected 'to suitable controllingmeans. As has been stated, in order to make adjustment for transmission of'power other than by direct coupling to the engine shaft,

i t--is also necessary to apply the friction .20 and 22, when no movement will be m1- '17 and shafts 15 and.the remaining gear wheels to rotate during the r'otationof the fly wheel 4, and as no resistance is offered ,by the friction disk 29 to the rotation ofgear wheel 24, no movement will be 1m- 24 may be held stationary. Thefriction f disk 29'upon friction disk 27 can be applied at speeds other than those described.

- shaft 5. To shafts 59 are also secured two 68 adapted for engagement with a stationand described inil 'igxf-l.

' speeds on accountmf thejdifi'erence in size of the gear wheels... Then if the keys 11 of slide 10 are moved into the slots'36 formed,

"24 to be more or less effective in transmitclutch devices in-order that the gear wheel with varying tension, causing gear wheel ting power to drive shaft 5, thus providing for transmission of power to the drive shaft- In the arrangenient shown in Fig. 1 a fly wheel. 46 is thrown into engagement with a shaft 47 by means of a friction clutch 48, actuated by means of a sliding cone 49'acting on levers 50. The details of this. clutch are not shown as any well known form of friction clutch will serve the purpose. vSlidin cone 49 has a-circular groove engaging To rock shaft 52- is secured an arm 53 which is connected by a rod 54 to a foot lever (not shown) for throwing the friction clutch 48 on-or off. Shaft 47 rotates on roller bearings 55in a casing 56, andhas secured to it, a small gear wheel 57 in mesh with larger gear wheels 58 secured to shafts 59 mounted on roller bearings 60 in the casing 56. Shafts 59 have small gear Wheels 60 in mesh with a larger gear wheel 61 rotating on drive gear wheels62 smaller in diameter than gear wheels 60 and in mesh with a much large ear wheel 61- rotating on drive shaft 5. 18211 Wheels 62 are also in mesh with int rmediate gear Wheels 64, mounted in the easing 56 and having a face broad enough to mesh with a gear wheel 65, rotating on drive shaft 5 alongside gear wheels 62 and 63. Casing 56 is capable of rotation upon roller bearings 66 on drive shaft 5, and in a stationary bearing 67 attached to the car frame To the casing 56 is secured afriction disk ary part of Hearing 67. Friction is applied to disk 68 by means of a friction disk 69 controlled in a manner similar to that shown Drive shaft 5, Fig. 1, can be clutched directly to shaft 47, by moving keys 11. of slide 10 into slots 70, and if the friction disk 69 is off, casing 56.,t0gttln'l' with the gearing willibe rotated bodily with the drive shaft In order to make adjustment. for a lower speed, friction is applied to disk 68, by means of oscillating collar 32, causing the lisk 68 and casing 56 to remain stationary. Then as the shaft 47, and gear 57, rotate in the direction indicated by the arrow, gears 58, 60', and 62, will rotate in the reverse direction and impart to gears 61 and 63, rotating on, drive shaft 5, movement in the same direction as shaft 47 and at lower Having thus in gear '61, drive shaft 5 will move with said ear, but slower than gear 57 on account of ilac difference in size. Again, if. keys 11 are moved int0slots36 of gear 63, drive shaft will move therewith, but slower'than when connected to gear 61'. Now if keys 11 are shaft 5 will be driven in the reversediree. tion from that above described, because said gear is in mesh with an intermediate gear 61, which in turn meshes with gear 62.

- moved into slots 36, of gear 65,, the drive Tn'the preferredinountin of the transmission gearing shown in Pig. 3, the gear wheels are at all times carried around in a circular path, and for that reason, can be mounted in the fly wheel of the engine, the gear wheels supplying the necessary weight, thus avoiding the use of the usual fly wheel.

in the two forms of my inventionillustratcd respectively, in Figs. 1 and-3, I have shown a special arrangement of interrelated gears. Manifestly, the arrangement of such gears may be altered, as has been shown b me in my prior patents, Nos. 864,903, 861,004, 864,905, and 864,906. r

described my invention, I claim 1. In a motor vehicle, the combination with an engine shaft running continuously in one direction, a drive shaft for propelling the car, and means introduced between said shafts for propelling the car at-any speed up to the maximum'ot that of the engine shaft or in eitherdircction at the will of the operator, said means comprising a fly wheel driven with the engine shaft, a series of gears also rotating with the engine shaftmcans for connecting one of said gears with the drive shaft, and means coiiperating with the engine shaft for causingsaid gears to rotate on their axes.

2. In a motor car, the combination with an engine shaft running at a uniform speed and a drive shaft for propelling the car, of a fly wheel secured to the engine shaft, a series of gear wheels varying in diameter carried by said fly ,wheel, another series of gear wheels of varying diameter on the drive shaft in mesh withthe first-mel'itioned gear wheels, means for causing rotation of the first mentioned series of gear wheels, and

means whereby any one of the second series of gear wheels can be coupled to the drive shaft, whereby variable speeds can be imparted to the drive shaft from the engine shaft running at a uniform speed.

3..In a motor car, thebombinatiori with an engine shaft running continuously in one direction, and a drive shaft for propelling the car, of a fly wheel secured to the engine shaft, a series 'of gear wheels varying in diameter carried b said fly wheel, another series of gear whee s of varying diameter on] the drive shaft in mesh with said first series of gear wheels, means for causing rotation ofthe first mentioned series of gear wheels,

and means whereby any one of the second series of ar wheels can be cc drive sha' t, whereby the drive s aft can be rotated in different. directions by means of the engine shaft which is ru'nmngrcontinu ously in one direction, substantially as de scribed. i a I 4. In amotor car, the combination with a continuously running engine shaft, and a drive shaft for propelling the car, of a fly coupling the drive shaft direct to the engine shaft. V

5. In a motor car, the combination with a continuously running engine shaft, and a drive shaft for propelling the car, of members interposed between the engine shaft and the drive shaft, which are adapted for transmission of power from the engine shaft to the drive shaft, and two clutching systems, one of said systems clutching certain of the interposed power-transmission members toa stationary part of the car, :the other system clutching others of theinterposed power 'transmission members to the drive shaft,

substantially as described.

6. In "a motor car, the combination with a continuously running engine shaft, and a drive shaft for propelling the car of power transmission members interposed between the engine shaft and the drive shaft, and two clutching systems, coiiperating with the power transmission members and jointly necessary to render the power transmission members operative, one of said systems clutching one of the interposed power transmission members by means of a friction clutch to a stationary part of the car, the other system, clutching one of the interposed power transmission members to the drive shaft, and means for independently actuating said clutches whereby releasing of the friction clutch will stop the transmission of power to the. drive shaft without disconnect- O the drive shaft.

7. in a motor car, the combination with a continuously running engine shaft, and a drive shaft. for propelling the car, of a series of gear wheels of'varying diameter interposed between the engine shaft and the drive shaft, and two clutching systems cooperating with the series 'of gcanwhccls, and jointly necessary to render the series of gear wheels operative to effect transmission of power-from the engine shaft to the drive shaft, one of said systems clutching one 'of led to the r in" the power transmission members from the series of gear wheels by means of a friction ,clutch'to a stationary part of. the car, the other system clutching an one of several of the series of gear whee s of varying diameter to he drive shaft, and means for, 7 inde endently actuating said clutches where by adjustment can first bemade by means of the last mentioned clutching system to clutch the drive shaft to a particular gear wheel,

determining the speed atwhich the drive shaft shall: run, after which the friction clutch can be-applied to render the series of gear wheels operative, and effect the transmission of power from the engine shaft to the drive shaft.

8. ,In a motor car, the combination with a contimiously running engine shaft and a drive shaft, for propelling the car, ofa'series of gear wheels of varying diameter interposed between the engine shaft and the 35 drive shaft, and two clutching systems (:0- operating with the series of, gear wheels and jointly necessary to render the series of gear wheels operative to effect transmission of power from the engine shaft to the drive shaft, one of said systems clutching the series of gear wheels by means of a friction clutch, to a stationary part of the car, the other system clutching any one of'severalof the series of gear wheels of varying diame-' ter to thedrive shaft, and means for inde-' pendently' actuating said clutches, whereby adjustment can first. be made by means of the last mentioned clutching system tti'clutch the drive shafttoa particular gearwheel, V

determining -the speed at which the drive shaft shall run, after which the friction clutch can be applied to render the series ,of gear wheels operative, and effect the transmission of .power from the engine shaft to the drive shaft. 1

9. In a motor car, the combination with a continuously running engine shaft, and a drive shaft for propelling the car, of a series of gear wheels of varying diameter interposed between the engine shaft and the drive shaft, and two clutching systems cob crating with the series of gear wheels,.an -jointly necessary to render the series of gear wheels operative to effect transmission of power from the engine shaft to the drive'shatt, one of said systems clutchn one of the series of gear wheels by means 0 a friction clutch, to a stationary part of the car, the other system clutchingany one of several of the series 0 gear wheels of varying diameter to the drive 'shaftrand means for independently actnatw ing said clutches, whereby adjustment can be the clutch of the gear wheel to the drive shaft. 7

it). A- motor car driving mechanism com'- in certain of the interposed power transprising a continuously running engine shaft, 5 and a drive shaftjfor propelling the car, power transmission members inter osed be tween the engine shaft and' the drive shaft, t wo clutchingsystems for rendering the power transmission members operative, one 10 of said systems clutching certain of the interposed power transmission members to=a stationary part of.-the car, the other system clutching others of the interposed power transmission members to the drive shafnand means whereby the last mentioned clutch can be shifted from said interposed power transmission members to direct engagement with the engine shaft.

11. A motor car driving mechanism com- 2 prising a continuously runnin engine shaft and a drive shaft for propelling the car, power transmission members interposed between the engine shaft and the drive shaft, two clutching systems for rendering the power transmission members operative, one

of said systems clutching certain of the interposed power transmission members to a stationary part of thecar, the other system clutching others of the inter osed power transmission members to the rive shaft, a brake and means for applying the same to the .drive shaft, and means cooperating with the'first mentioned clutching system, whereby the application of the brake, automatically sto s the transmission of power to the drive slaft, without disconnecting the last mentioned clutch from said interposed power transmission members.

12.- A motor car driving mechanism'com- 0 prising a continuously running engine shaft, and a drive shaft for propellin the car, members interposed between t e engine shaft and" the drive shaft, two clutching systems for rendering the power transmission members operative, one ofs'aid systems clutching certain of the interposed power transmission members to a stationary part of the car, the other system clutching others of the interposed power transmission memhers to the drive shaft, means whereby. the last mentioned cl'utchcan be shifted. from said interposedpower transmission members to direct engagement with theengine shaft, a brake and means for applying the same to. the driveshaft, and means cooperating with the two clutching systems whereb, the application of the brake automatica y stops transmission of power to the driveshaft, either bythe'interpos'ed power so trzi'nsmissionmembers or by :the direct clutching to the engine shaft.

13. In a motor car, the combination with a continuously runmn engine shaft, and a drive shaft for propel ng the car, of memhers interposed between the engine shaft and the drive. shaft, twoclutcl'iing systems for rendering the power transmission members operative. one 'of said systems clutchnussion members to a stationary part of the car, the other system clutching the drive shaft either to certain of the interposed power transmission members. or to the engineshaft. y A

14. A motor cardriving mechanism ccmprising a continuously runnin engine shaft and a drive shaft for propdllin the car, members interposed between tie engine shaft and the drive shaft, two clutching systems for rendering the power transmission members operative, one 'of said systems clutching certain of the ,interposed power transmission members to a stationary part of the car, the other system clutching the drive shaft either to certain of the mter- 5 posed power transmission members or to the engine shaft, means for applying a brake to the drive shaft, and means coliperatin with the-.two clutching systems whereby -t e application of the brake automatically stops go I transmission of power to the drive shaft, either by the interposed power transmission membersor by the direct clutching to the engine shaft. a

'15. A motor car driving mechanism com .95 prising an engine shaft running ata uniform speed and a drive shaft for propelling the car, a fly wheel secured to the engine shaft, a shaft'carrierl thereby, a series of gear. wheels varying in diameter secured to said shaft, :1 corresponding series of gear wheels of varying diameter on the drive .shaft in mesh with said first mentioned series, and means for clutching any one of-the last mentioned series of gear ,wheels to the drive shaft, a gear wheel held stationary and .in mesh with a gear wheel secured to the shaft mounted on the fly wheel-whereby rev olution of the liy wheel causes rotation of the gear wheels secured to the shaft mounted on the fly wheel, certain of the gear wheels I secured to the shaft on the fly wheel, of less diameter than'thc gear wheel-causing their rotation, being in mesh with larger gear wheels on the drive shaft, whereby the last mentioned gear wheelis rotated in the same direction as the fly wheel, but at a speed less than the fly wheel, proportioned to the differenoe between the, forward movement caused by the fl wheel and the backward movement cause by the gear wheels secured a to the shaft on the fly wheel.

16. A motor car driving mechanism comprising an engine shaft runnlng in one direction at a uniform speed and a drive shaft 12 for propelling the car, a fly wheel secured to the engine shaft, a 'shaft carried thereby, a series of gear wheels varying in diameter secured to said shaft, a corresponding series of gear, wheels of varying., d 1ameter on the'l 7 drive shaft in mesh with the first mentioned of greater diameter than the gear-wheelcausing its rotation, being in mesh with'a smaller gear wheel on the driveshaft, wherethe last mentioned gear wheel is rotated in a reverse direction from the fly wheelowing to the difference between the forward movement-caused by the fly wheel, and the greater backward movement caused by the gear wheels secured to the shaft on the fly wheel. 5 7

17. A motor car driving mechanism comprising'an engine shaft running in one direction at a uniform speed, and a drive shaft for propelling the car, a fly wheel secured to the engine shaft, a shaft carried thereby, a series of gear wheels varying in diameter secured to said shaft, a corresponding series of gear wheels of varying diameterlon the drive shaft and in mesh with said first-mentioned series, andaneans forclutching any one of the last mentioned series of gear wheels to the drive shaft, a stationary gear wheel in mesh witha gear wheel secured to the shaft mounted on the fly wheel, whereby revolution of the fly wheel causes rotation ofthe gear wheels secured to the shaftmounted on the fly wheel, certain of the large gear wheels on the drive shaft being in mesh with gear wheels secured to the shaft on the fly wheel of less diameter than the ear wheel causing their rotation,whereby t is large gears onthe drive shaft rotate 'in the same direction as the fly wheel, and a small gear wheel on the drive shaft which is in mesh with a gear wheel secured to the shaft on the fly wheel of greater diameter than the gear wheel causing its rotation, whereby the small gear wheel on the drive shaft is rotated in a reverse direction from the fly wheel. ,7

18, In a motor car, the combination with the engine shaft and the drive shaft, of vari able speed transmitting mechanism introduced between the two, said mechanism comprising a fly wheel, speed gears, means cooperating with the en ine shaft for causing certain of said speed gears to rotate on their. axes, and means for coupling others of the speed gears to the drive shaft.

19. In a motor car, the combination with an engine shaft and the drive shaft, of variable speed mechanism introduced between the -two,said speed mechanism comprising a constantly rotated fly wheel, a series of gears rotated in unison with the fly wheel.

another series of gear wheels on the drive shaft, and means for engaging any one of saidlas't-mentioned gear wheels with the drive shaft, and means cooperating with the engine shaft for causing the first-mentioned series of gearwheels to have a relative motion as regards each other.

20. In-a motor car, the combination with the engine shaft and the drive shaft, a variable speed 'mechanism' comprising changeable gears introduced between the two, means for throwin the speed mechanism into connection widi 'the drive shaft, said means COIlSlStlIlg of sliding keys, and means 7 cooperating with the engine shaft for was ing the rotation of said gearsupon the raxes, said means consisting of a clutch'mechanism. a

21; In a motor vehicle, a power transmission device, comprising an-engine shaft, a drive shaft, a variable speed mechanism, compris ng changeable gears, introduced bei tween said shafts, means for throwing the speed mechanism into connection with. the drive shaft, and means comprisin a friction clutch cooperating with the engine shaft for causing said gearsto, rotate 'on their axes, whereby the speed imparted to the driving wheels is the component of the .fol-

lowing factors, first, the speed of rotation of the variable speed mechanisms as a" whole; second, thexspeed of rotation of the individual gears about their axes; third, the

speed of rotation of the last driving gear,

and fourth, the speed of' rotation ofthe drive shaft.

22. In an automobile transmission mech anism', the combination with a fiy-wheel,'of

parting a rotary movement to the-sets of gears on their own axis as they move with the fiy wheel.

23. In an automobile transmission meel fanism, the'combination with a fly wheel, of a plurality-of planetary gears of different diameters held to the fiy-wheel, a transmission shaft rotatablylheld in the fly-wheel,a plurality of independent gears held to ro- .tate with the transmission shaft as an axis and meshing with the planetary gears, means for locking certain of th" gears to the transmission shaft, together; ith means for imparting a rotary movementto the planetariyl gears on their own gXis'as they move wit the fly-wheel. I i 24. In an automobile transmission mechanism, the combination-"with a flywheel; of a'nlurality' of sets'of planetary gears of of different, diameters held to rotate with mentioned gears, and means for rotating ary gears on their axis.

, fly-wheel a transmission shaft rotatably suplocking certain of the gears to the transmis- 'sion shaft, together with means for impartsl1aft, of a plurality of gears notatably held relatively different diameters held to the ported in the fiy-wheel, a plurality of gears transmission shaft as an axis and meshing with the planetary gears, movable keys, for

ing a rotary movement to the planetary .sets' of gears on their-own axis as'they move with the fly-wheel. Y a v 25. The combination with a transmission shaft and means for supporting the'same, of a pluralityof gears held to rotate independ-' ently of the transmission shaft with the lat- 'ter an axis,'a plurality of planetary gears 'meshing with the gears 'on the transmission shaft, and means for lockingcertain of the rotary gears to the transmission shaft, together with means for causing the planetary gears to rotate on their own axis. Q

26. The combination with a "fly-wheel ,forming a casing, of a shaft adapted to rotate independent of the fiy-wheel, a .plurality-of gears, means for locking said gears to rotate with the shaft, a plurality of planetary: gears journaled within the flywheel and adapted to impart motion to the firstthe planetary gears on their axis.

27. The combination with a hollow fiywheel and a shaft for rotating said wheel, of

a transmission shaft axially arranged with respect to the fly-wheelshaft, a cap piece-secured to the fly-wheel and forming an inclosed easing, a plurality 0f gears rotatablyheld on the transmissionlshaft, means for locking the gears to the shaft, a plurality. of planetary gears journaled in the fly-wheel for rotating the gears on thetranstnission shaft, and means for controlling said planet- 28. The combination with a transmission on said shaft, a movable key for locking the gears to the shaft, a plurality of planetary gears for rotating the gears on the transmission shaft, and means for controlling said planetary gears on their axis.

29. The combination with a transmission shaft, of a lurality of gears rotatably held on said shaPt, means for locking the gears to the shaft, a plurality of planetary gears for rotating the gears on the transmissionishaft, means for rotating the planetary gears on their own axis, and a clutch whereby all the parts may be made to rotate in unison; 30. Thecombination with a transmission shaft, of a plurality of gears of relatively different diameters independently rotatable, on said shaft, in device slidingly held on the shaft to move lengthwise thereof and adapt ed-to lock certain of said gears to the transmission, shaft, a plurality of planetary gears of relatively difl'erent diameters in mesh with the gears having. thetransmission.

to rotate-independently of said'shaft, keys I or supporting the same, 7

slidinglyheld on the shaft andadaptedto engage and lock certain of said gears to the "shaft, a plurality of planetary gears of relatively different diameters held to rotatejnunison and meshing withthe gears on" the transmission shaft, and means for 'holdin one of the gears on thetransmission sha t stationary so as to impart an independent" rotary movement to theplanetai'y gears as they move around the transmission shaft.

The combination with a transmission .86

shaft and means for supporting the same, of a set of gears arran ed with the transmission shaft asian axis an having different diame- I ters and arranged to. rotate independently:-

of said shaft, means held on the shaft and i adapted to engage and lock certain of said gears to the shaft, a plurality of planetary gears of relatively different diameters. held to rotate in unison .and meshing with the eing so proportioned that one of the planettion of one of the gears on the transmission gears on the transmission shaft, the gears shaft, and means for holding, one: of the gears on the transmission shaft stationary a so as to impart an independent rotary movement to the planetary gears as they move around the transmission shaft.

33. A transmission mechanism .compris inga shaft, :1- set of gears of difierent 31- 105 ameters arranged: to rotate independent of the transmission shaft and having the latter as an axis, certain of said gears having a slot and an annular groove therein, keys slidingly held in the transmission shaft and .10

having projecting ends adapted to enter the slots of the gears to lock the same to the shaft one at a time or to be alined with the grooves to release said gears, 'planetar gears of different diameters in mesh wi the gears on the transmission shaft, and

means cooperating with one of said independently rotatable gears for controlling the planetary gears on their axis.

34. A transmission mechanism comprising a shaft, a set of'four gears of different diameters arranged to rotate independent of the transmission shaft and having the latter as an axis, certain of said gears having a slot and an annular groovetherem, means 12 slidinglly held to the transmission shaft and adapte lock the'same to'the shaft one at a time-or to enter the slots of the gears to tobe'alined with the grooves to release said t gears, two sets of planetarygears of difig g ent diameters in mesh with the gears on the transmission shaft and arranged on-oppq site sides ofsaid shaft, and means cooper 'ating with'one of said independently rotatable gears for controlling the planetary gears on their axis. I

35-.' The combination with a fly-wheel having a cap forming an inclosing casin of a transmission shaft held to rotate in t e casing, a set of four gears of different diameters arranged to rotate independent of the transmission shaft and having the latter as an axis, certain offsaid gears having a slot and an annular groove therein, keys slid 'ingly held in the transmission shaft and having'projeeting ends adapted to enter the slots of the gears to lock the same to the shaft one at a time or to be alined with the grooves to release said gears, two sets of planetary gears each comprisin four gears of different diameters -in mes with the gears" on the; transmission shaft and arranged on OPPOSitB sides of said shaft, and nieans cooperating withone of .said inclependently rotatable gears for controlling the planetary gears on their axis.

36. The combination with a fiy-wheel forming a casing of transmission gears of relatively. difi'erent diameters arranged in said casing, a transmission shaft adapted to be operatively-connected with the gears to rotate' with said. gears or the latter to rotate independent of said shaft, and. means for rotating-the shaft and gears in unison.

3?. In an automobile transmission mechanism, the combination with a fly-wheel a plurality of planetary gears held to fiy-wheel, a transmission" shaft rotat:

held in the fly-wheel, a plurality of arran ed on the transmission shaft an erate by the planetary gears, and mt for locking certain of thegears to the tr:

mission shaft.

38. In an automobile transmission me anism, the combination with a fly-wheel a plurality of sets of planetary gears of ferent diameters held to the fly-wheel a In table transmission shaft, a plurality of gt of different diameters arranged on the tr: mission shaft and directly inmesh with planetary gears,.and meansfor locking gears to the transmission shaft.

39. The combination with a transmiss shaft, of a plurality ,of gears rotatabl y 11 on said shaft, means for locking the gear: the shaft, and a plurality. of planetary ge for rotating the gears on the transmiss shaft. a

40. The combination with a transmiss shaft, of a plurality of gears rotatable w said shaft, means for locking the gears to shaft, and a plurality of planetary gears mesh with the gears on the transmiss: shaft.

In testimony whereof, I affix my sigi ture, in the presence of two witnesses.

ARTHUR J ACOB MORSE .Witnesses:

FREDERICK A. BLOUNT, ELIZABETH BARNETT. 

